Cryo-electron tomography of eel sperm flagella reveals a molecular “minimum system” for motile cilia

Abstract

AbstractCilia and flagella play a crucial role in the development and function of most eukaryotic organisms. The structural core of the flagellum, the axoneme, is conserved in most eukaryotes and careful regulation of dynein motors within the axoneme is required for proper ciliary beating. The sperm flagellum from the American eel (Anguilla rostrata) has been shown to lack many of the canonical axonemal proteins, including the radial spokes, the central pair complex, and possibly even the outer row of dynein arms, presenting a “minimal” flagellar system. Here, we present cryo-electron tomography analysis of the eel sperm flagellum. We identified two states for the eel sperm flagellum within our tomograms, narrow and wide, and found that the flagellum started narrow near the sperm head and widened distally. Subtomogram averages revealed that the eel sperm flagellum has retained remnants of the missing regulatory complexes, including a short radial spoke 3 complex, basal components of radial spokes 1 and 2, and an outer dynein arm docking complex. We also describe unique structural features of theA. rostratasperm flagellum, such as a unique pattern of holes at the inner junction and an accessory complex located at the “outer” junction. Finally, we discuss the consequences of losing key regulatory factors for the eel sperm flagellum and hypothesize several evolutionary factors that may have led to their loss. Together, our results shed light onto the structure and function of the eel sperm axoneme and provide insight into the minimum requirements for proper ciliary beating.